For example, the Sun is roughly 109 times the diameter of Earth; and about 10 times the diameter of Jupiter. The volume (for the simplifying assumption of perfect spheres) is proportional to the third power of the diameter.
object-oriented is index by object with no relationship to each other. Relational db has links to other db that have specific information. Some may have Names.db and relate to address.db and so on.
Mass is how much matter there is in something.Volume is the amount of space enclosed by a shape or object that is 3 dimensional.When it comes to similarity, they're both measurements of how much of something (either matter or space) is in something.
Buoyancy, the total weight of the vessel has to displace that same weight of water. If the volume of the water displaced is less than the volume of the ship, or any other object for that matter, then it will float.
The radius of a circle is half the length of the diameter. Scroll down to related links to find more about the diameter and the radius.
It is the 43rd largest in the world.
Sun: 109 times the diameter of the Earth.Moon: About 1/4 the diameter of the Earth.Note that the surface is proportional to the second power; and the volume, to the third power of the diameter. For example, the Sun's volume is more than a million times the Earth's volume.You get yet other numbers if you compare masses, instead of diameter or volume.Sun: 109 times the diameter of the Earth.Moon: About 1/4 the diameter of the Earth.Note that the surface is proportional to the second power; and the volume, to the third power of the diameter. For example, the Sun's volume is more than a million times the Earth's volume.You get yet other numbers if you compare masses, instead of diameter or volume.Sun: 109 times the diameter of the Earth.Moon: About 1/4 the diameter of the Earth.Note that the surface is proportional to the second power; and the volume, to the third power of the diameter. For example, the Sun's volume is more than a million times the Earth's volume.You get yet other numbers if you compare masses, instead of diameter or volume.Sun: 109 times the diameter of the Earth.Moon: About 1/4 the diameter of the Earth.Note that the surface is proportional to the second power; and the volume, to the third power of the diameter. For example, the Sun's volume is more than a million times the Earth's volume.You get yet other numbers if you compare masses, instead of diameter or volume.
For example, the Sun is roughly 109 times the diameter of Earth; and about 10 times the diameter of Jupiter. The volume (for the simplifying assumption of perfect spheres) is proportional to the third power of the diameter.
I don't believe there is a way to find the mass of an object knowing only the diameter of the object. If you had the volume, or some other measurements sure. the best bet would be just to weigh it, or find the volume using the principles of displacement.
In general, the volume will also increase. If the shape remains the same, the volume will increase faster than the surface area. Specifically, the surface area is proportional to the square of an object's diameter (or any other linear measurement), while the volume is proportional to the cube of any linear measurement.
The volume of a solid object such as a rock or pebble can be determined by submerging it in a liquid in a graduated cylinder or other container. The difference in the volume of the liquid is the volume of the object.
The volume of a rectangle (or any other 2D object) is always zero. An object needs to be 3D to have volume.
By measuring the change in angular diameter of the object
There is no such thing as "volume of diameter". On the other hand, the calculation for volume depends on the type of figure, so you may want to ask another question, where you specify, for what figure you want to do the calculation.
Greater volume than the other object.
One is the reciprocal of the other. It is more common to use "mass per volume", but in theory you could use either. If object "A" has more mass per volume than object "B", then object "B" will have more volume per mass than object "A".
If all other dimensions of the cell remain the same, both surface area and volume should increase if the diameter is increased.
An object cannot have a volume of 15.8 cm since cm is a measure of length. Without knowledge of the other dimensions, the object's volume cannot be determined and so neither can its density.